Composite electronic component and board having the same

What is claimed is: 1. A composite electronic component comprising: a composite body in which a capacitor and an inductor are coupled to each other, the capacitor including a ceramic body in which a plurality of dielectric layers and first and second internal electrodes, having respective dielectric layers interposed therebetween and facing each other, are stacked, and the inductor including a magnetic body including a coil part; an input terminal disposed on a first end surface of the composite body in a length direction and connected to the coil part of the inductor; an output terminal including first output terminals disposed on a second end surface of the composite body in the length direction and connected to the coil part of the inductor and a second output terminal disposed on a second side surface of the composite body in a width direction and connected to the first internal electrodes of the capacitor; and a ground terminal disposed on a first side surface of the composite body in the width direction and connected to the second internal electrodes of the capacitor, wherein the capacitor and the inductor are coupled to each other in a vertical direction, and a magnetic metal layer is provided between the inductor and the capacitor. 2. The composite electronic component of claim 1 , wherein a thickness of the magnetic metal layer is 50 to 300 μm. 3. The composite electronic component of claim 1 , wherein the magnetic metal layer contains one or more of a metal powder, a metal flake, and ferrite. 4. The composite electronic component of claim 3 , wherein the metal powder and the metal flake contain one or more selected from the group consisting of iron (Fe), an iron-silicon (Fe—Si) alloy, an iron-silicon-aluminum (Fe—Si—Al) alloy, an iron-silicon-chromium (Fe—Si—Cr) alloy, and a nickel-iron-molybdenum (Ni—Fe—Mo) alloy. 5. The composite electronic component of claim 1 , wherein the magnetic body has a form in which a plurality of magnetic layers having conductive patterns are stacked, the conductive patterns configuring the coil part. 6. The composite electronic component of claim 1 , wherein the inductor has a thin film form in which the magnetic body includes an insulating substrate and coils of the coil part are disposed on at least one surface of the insulating substrate. 7. The composite electronic component of claim 1 , wherein the magnetic body has a form in which the coil part includes a core and winding coils wound around the core. 8. The composite electronic component of claim 1 , wherein the capacitor and the inductor are coupled to each other by a conductive adhesive disposed on one of an upper surface and a lower surface of the magnetic metal layer. 9. The composite electronic component of claim 1 , wherein the input terminal is configured by coupling an external electrode disposed on a first end surface of the magnetic body in the length direction and an external electrode disposed on a first end surface of the ceramic body in the length direction to each other. 10. The composite electronic component of claim 1 , wherein the first output terminals are configured by coupling an external electrode disposed on a second end surface of the magnetic body in the length direction and an external electrode disposed on a second end surface of the ceramic body in the length direction to each other. 11. A printed circuit board having the composite electronic component of claim 1 , comprising: three or more electrode pads disposed on the printed circuit board; the composite electronic component installed on the printed circuit board; and solders connecting the electrode pads and the composite electronic component to each other. 12. A composite electronic component comprising: a composite body in which a capacitor and an inductor are coupled to each other, the capacitor including a ceramic body in which a plurality of dielectric layers and first and second internal electrodes, having respective dielectric layers interposed therebetween and facing each other, are stacked, and the inductor including a magnetic body including a coil part; an input terminal disposed on a first end surface of the composite body in a length direction and connected to the coil part of the inductor; an output terminal including first output terminals disposed on a second end surface of the composite body in the length direction and connected to the coil part of the inductor and a second output terminal disposed on a second side surface of the composite body in a width direction and connected to the first internal electrodes of the capacitor; and a ground terminal disposed on a first side surface of the composite body in the width direction and connected to the second internal electrodes of the capacitor, wherein the capacitor and the inductor are coupled to each other in a vertical direction, the inductor includes the coil part and cover layers disposed on upper and lower surfaces of the coil part, respectively, and a magnetic metal layer is disposed on the uppermost portion of the cover layer adjacent to the capacitor. 13. The composite electronic component of claim 12 , wherein the inductor has a thin film form in which the magnetic body includes an insulating substrate and coils of the coil part are disposed on at least one surface of the insulating substrate. 14. The composite electronic component of claim 12 , wherein the capacitor and the inductor are coupled to each other by a conductive adhesive. 15. The composite electronic component of claim 12 , wherein the magnetic body of the inductor has a form in which a plurality of magnetic layers having conductive patterns are stacked, the conductive patterns configuring the coil part. 16. A printed circuit board having the composite electronic component of claim 12 , comprising: three or more electrode pads disposed on the printed circuit board; the composite electronic component installed on the printed circuit board; and solders connecting the electrode pads and the composite electronic component to each other. 17. A composite electronic component used in a power supply terminal of a portable mobile apparatus, suppressing an alternating current (AC) component of received power, and decreasing ripple, the composite electronic component comprising: a power stabilizing unit including a composite body in which a capacitor and an inductor are coupled to each other and a magnetic metal layer is provided between the inductor and the capacitor, the capacitor including a ceramic body in which a plurality of dielectric layers and first and second internal electrodes, having respective dielectric layers interposed therebetween, are stacked and the inductor including a magnetic body including a coil part; an input terminal disposed on a first end surface of the power stabilizing unit in a length direction and receiving power converted by a power managing unit; an output terminal including first and second output terminals disposed on a second end surface of the power stabilizing unit in the length direction and a second side surface of the power stabilizing unit in a width direction and supplying the power stabilized by the power stabilizing unit; and a ground terminal disposed on a first side surface of the power stabilizing unit in the width direction and connected to the second internal electrodes of the capacitor, wherein the inductor suppresses the AC component of the received power and the capacitor decreases ripple in the received power. 18. The composite electronic component of claim 17 , wherein the magnetic